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  2. Doping (semiconductor) - Wikipedia

    en.wikipedia.org/wiki/Doping_(semiconductor)

    Doping of a pure silicon array. Silicon based intrinsic semiconductor becomes extrinsic when impurities such as boron and antimony are introduced.. In semiconductor production, doping is the intentional introduction of impurities into an intrinsic (undoped) semiconductor for the purpose of modulating its electrical, optical and structural properties.

  3. Modulation doping - Wikipedia

    en.wikipedia.org/wiki/Modulation_doping

    Modulation doping is a technique for fabricating semiconductors such that the free charge carriers are spatially separated from the donors. Because this eliminates scattering from the donors, modulation-doped semiconductors have very high carrier mobilities .

  4. Gas immersion laser doping - Wikipedia

    en.wikipedia.org/wiki/Gas_immersion_laser_doping

    Gas immersion laser doping (GILD) is a method of doping a semiconductor material such as silicon. In the case of doping silicon with boron to create a P-type semiconductor material, a thin wafer of silicon is placed in a containment chamber and is immersed in boron gas.

  5. Ion implantation - Wikipedia

    en.wikipedia.org/wiki/Ion_implantation

    Semiconductor doping with boron, phosphorus, or arsenic is a common application of ion implantation. When implanted in a semiconductor, each dopant atom can create a charge carrier in the semiconductor after annealing. A hole can be created for a p-type dopant, and an electron for an n-type dopant. This modifies the conductivity of the ...

  6. Dopant - Wikipedia

    en.wikipedia.org/wiki/Dopant

    Pure semiconductors that have been altered by the presence of dopants are known as extrinsic semiconductors (see intrinsic semiconductor). Dopants are introduced into semiconductors in a variety of techniques: solid sources, gases, spin on liquid, and ion implanting. See ion implantation, surface diffusion, and solid sources footnote.

  7. Carrier lifetime - Wikipedia

    en.wikipedia.org/wiki/Carrier_Lifetime

    Oftentimes, a dopant is used, giving an excess of electrons (in so-called n-type doping) or holes (in so-called p-type doping) within the band structure. This introduces a majority carrier and a minority carrier. As a result of this, the carrier lifetime plays a vital role in many semiconductor devices that have dopants.

  8. Monolayer doping - Wikipedia

    en.wikipedia.org/wiki/Monolayer_doping

    Monolayer doping (MLD) in semiconductor production is a well controlled, wafer-scale surface doping technique first developed at the University of California, Berkeley, in 2007. [1] This work is aimed for attaining controlled doping of semiconductor materials with atomic accuracy, especially at nanoscale , which is not easily obtained by other ...

  9. Extrinsic semiconductor - Wikipedia

    en.wikipedia.org/wiki/Extrinsic_semiconductor

    N-type semiconductors are created by doping an intrinsic semiconductor with an electron donor element during manufacture. The term n-type comes from the negative charge of the electron. In n-type semiconductors, electrons are the majority carriers and holes are the minority carriers. A common dopant for n-type silicon is phosphorus or arsenic.

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